Considerable progress in the synthesis and technology of hydrogels makes these materials
attractive structures for designing controlled-release drug delivery systems. In particular, this …

Stimulus-cleavable nanoscale drug delivery systems are receiving significant attention
owing to their capability of achieving exquisite control over drug release via the exposure to …

Incorporating labile bonds inside polymer backbone and side chains yields interesting
polymer materials that are responsive to change of environmental stimuli. Drugs can be …

There has been considerable progress in recent years in addressing the clinical and
pharmacological limitations of hydrogels for drug delivery applications but substantial …

Polyethylene glycol (PEG) hydrogels are widely used in a variety of biomedical applications,
including matrices for controlled release of biomolecules and scaffolds for regenerative …

Clinical percutaneous delivery of synthetically engineered hydrogels remains limited due to
challenges posed by crosslinking kinetics—too fast leads to delivery failure, too slow limits …

The Michael addition reaction is a versatile synthetic methodology for the efficient coupling
of electron poor olefins with a vast array of nucleophiles. This review outlines the role of the …

The objective of this work was to create 3D hydrogel matrices with defined mechanical
properties as well as tunable degradability for use in applications involving protein delivery …

Current thoroughly described biodegradable and cross‐linkable polymers mainly rely on
acrylate cross‐linking. However, despite the swift cross‐linking kinetics of acrylates, the …

Abstract Poly (ethylene glycol)(PEG) hydrogels are one of the most extensively utilized
biomaterials systems due to their established biocompatibility and highly tunable properties …